In this paper, a methodology to derive equivalent circuits of EMI filters from S-parameters is introduced and discussed. Starting from measured S-parameters and with no need for information on the internal structure of the filter, a rational approximation of the measured frequency responses is derived and equivalent circuits are directly synthesized. The proposed black-box filter models are compatible with SPICE solvers and can be used, in combination with component-level representations of power-electronic equipment, for the prediction of conducted emissions through time-domain simulation. As an example of usage, a CISPR-25 test setup where the EMI filter operates in the presence of an inverter is discussed.

Measurement-Based Equivalent Circuit Model for Time-Domain Simulation of EMI Filters

Negri, S;Spadacini, G;Grassi, F;Pignari, S
2022-01-01

Abstract

In this paper, a methodology to derive equivalent circuits of EMI filters from S-parameters is introduced and discussed. Starting from measured S-parameters and with no need for information on the internal structure of the filter, a rational approximation of the measured frequency responses is derived and equivalent circuits are directly synthesized. The proposed black-box filter models are compatible with SPICE solvers and can be used, in combination with component-level representations of power-electronic equipment, for the prediction of conducted emissions through time-domain simulation. As an example of usage, a CISPR-25 test setup where the EMI filter operates in the presence of an inverter is discussed.
2022
IEEE International Symposium on Electromagnetic Compatibility
978-1-6654-0788-5
Conducted emission (CE)
Electromagnetic interference (EMI)
EMI filters
power electronics
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/1232757
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